Go to OmnyThreadLibrary install it and read everything on the site.
You asked for some info so here goes:
Here's some stuff to read:
I personally like: Multithreading - The Delphi Way.
(It's old, but the basics still apply)
Your basic VCL application is single threaded.
The VCL was not build with multi-threading in mind, rather thread-support is bolted on so that most VCL components are thread-safe.
The way in which this is done is by making the CPU wait, so if you want a fast application be careful when and how to communicate with the VCL.
Communicating with the VCL
Your basic thread is a decendent of TThread with its own members.
These are per thread variables. As long as you use these you don't have any problems.
My favorite way of communicating with the main window is by using custom windows Messages and
postmessage to communicate asynchronically.
If you want to communicate synchronically you will need to use a critical section or a
See this article for example: http://edn.embarcadero.com/article/22411
Communicating between threads
This is where things get tricky, because you can run into all sorts of hard to debug synchonization issues.
My advice: use OmnithreadLibrary, also see this question: Cross thread communication in Delphi
Some people will tell you that reading and writing integers is atomic on x86, but this is not 100% true, so don't use those in a naive way, because you'll most likely get subtle issues wrong and end up with hard to debug code.
Starting and stopping threads
In old Delphi versions
Thread.resume were used, however these are no longer recommended and should be avoided (in the context of thread synchronization).
See this question: With what delphi Code should I replace my calls to deprecated TThread method Suspend?
Also have a look at this question although the answers are more vague: TThread.resume is deprecated in Delphi-2010 what should be used in place?
You can use
resume to pause and restart threads, just don't use them for thread synchronization.
synchonize etc code in your thread effectively stops your thread until the action it's waiting for has occured.
In my opinion this defeats a big purpose of threads: speed
So if you want to be fast you'll have to get creative.
A long time ago I wrote an application called Life32.
Its a display program for
conways game of life. That can generate patterns very fast (millions of generations per second on small patterns).
It used a separate thread for calculation and a separate thread for display.
Displaying is a very slow operation that does not need to be done every generation.
The generation thread included display code that removes stuff from the display (when in view) and the display thread simply sets a boolean that tells the generation thread to also display the added stuff.
The generation code writes directly to the video memory using DirectX, no VCL or Windows calls required and no synchronization of any kind.
If you move the main window the application will keep on displaying on the old location until you pause the generation, thereby stopping the generation thread, at which point it's safe to update the thread variables.
If the threads are not 100% synchronized the display happens a generation too late, no big deal.
It also features a custom memory manager that avoids the thread-safe slowness that's in the standard memory manager.
By avoiding any and all forms of thread synchronization I was able to eliminate the overhead from 90%+ (on smallish patterns) to 0.